DE4410087A1 - Closure for a conveyor operating in a vacuum - Google Patents

Abstract

The freely movable body consists of a ball (6) which is positioned beneath the funnel-shaped or point-symmetrical outlet (3). The ball stands on a support, in an open position, and closes the outlet opening (4) as a result of vacuum when conveying the pourable material. The ball is self-centering on the support and forms an annular outlet cross-section broken only by the struts of the support. The closure piece is made of the same material as the pourable material being conveyed.

Description

The invention relates to a closure for a vacuum working conveyor according to the preamble of the main claim.

Such a conveyor is for example from the prospectus Mann + Hummel GmbH, VKD 287.2 D and serves to promote Plastic granules. The conveyor works with one Suction fan. The vacuum creates plastic granulate a container into the device. After a set suction time switches off the suction fan. That in Conveying equipment located presses one at the outlet arranged flap and flows out. After the conveyed good has run out, a counterweight closes the flap and the Suction starts again.

It is also from DE-OS 34 06 824 a bell valve Blockage of an outlet known. This bell valve will especially used where there are strong abrasive media earth. So that there is no abrasion on the bell valve and the others mechanical components of the valve is one Protective sleeve is provided, which rests on a guide body. Instead of rotary flaps or bell valves can also Ball valves or pinch valves can be used. These are can be operated electropneumatically. A special feature of the  Feeding of plastic processing machines Feeding of cable sheath extruders for the production of cross-linked polyethylene cables. These cables are used without exception in the high-voltage range up to 440 KV. The PE insulating layer does not only have to have a certain amount Have minimum insulation thickness, but must be from be of the greatest material purity. Already traces of foreign bodies in of the order of 40 µm can result from a long-term effect affect the insulation of the cable and become one Lead breakthrough. That is why all parts that come with the Cable sheathing material come into contact, without exception Stainless steel with an electrolytically polished surface, see above that no abrasion or foreign matter in the insulating material can reach. Since this polyethylene is cross-linkable Material is a part of polyethylene, which is polyethylene is necessary for networking. This has peroxide the unpleasant property that it separates from the granulate and settles on dead corners of an aggregate, ages there and a reduction in quality when detached in the extrudate leads. That is why the units have to be transported and handled of this material in addition to an absolutely rustproof highly polished surface in its shape that they have no dead corners.

The conventional closures of conveyors have in this Regarding no satisfactory solution as any type of moving flap causes the finest metallic abrasion and the Design as a dead space-free facility was not possible.

A new closure of a conveyor is said to have this disadvantage remove.

The invention is therefore based on the object of a closure to create, which avoids the disadvantages described,  is inexpensive to manufacture and none for the application causing harmful abrasion. This task is based on the preamble of the main claim by its characterizing Features resolved.

The advantage of the closure according to the invention is that it is completely free of dead spaces, since all the insides of the Outlet device and the ball itself from outflowing Material is washed around and no caking is possible are. Furthermore, there is no metallic abrasion, since only Contact forces and no friction or relative movement between the individual metal surfaces.

An advantageous embodiment of the invention is that the ball ( 6 ) is made of the same material as the granulate to be conveyed, because then when electrostatic charges occur due to friction, both materials have the same charge and repel each other.

This arrangement eliminates the disadvantages of conventional ones Conveyor devices effectively eliminated in the simplest way.

An advantageous embodiment of the invention provides that freely to design movable closure element as a ball. A ball has the advantage that it is in any position closes circular opening reliably. Of course there is also the possibility of other closure elements, such as. B. insert a cone or a flat or curved plate. These closure elements also ensure secure locking of the outlet. One of the main special features is the free movable closure. Guides of any kind that this Lock in the open or in the closed position move are not required. In this respect, none occurs Friction between the two end positions.  

A further advantageous embodiment of the invention exists in that the outlet cross-section is designed point symmetrical and has no flow-dead surfaces. So that will ensures that the material is completely out of the container can be emptied.

According to a development of the invention, the ball consists of the same material as the bulk material to be conveyed, d. H. like that too promotional plastic granules. This has the advantage that when Occurrence of electrostatic charges due to friction between the two Materials bulk material and ball have the same load and repel each other.

These and other features of preferred developments of the In addition to the claims go from the invention Description and the drawings, the individual Features individually or in groups in the form of Sub-combinations in the embodiment of the invention and on other areas to be realized and beneficial as well as for Protectable versions can present themselves for the here Protection is claimed.

The invention is described below using an exemplary embodiment shown. The figure shows:

A conveyor for bulk goods with a ball lock. The conveyor 1 consists of a cylindrical jacket 2 and a conical outlet 3 . The conical outlet 3 ends in an outlet opening 4 , which represents the narrowest cross section of the outlet channel 5 . In the outlet channel 5 there is a ball 6 , which rests on a support device 7 in the form of a support cross in the idle state. The conveying station is further equipped with a filling detector 8 and has an inlet 9 into which the material enters via the conveying line 10 coming from the storage container. A coarse sieve 11 is located in the upper part of the conveyor. A removable cover 12 is arranged above it. The clean air opening 13 , which can be closed with a delivery valve 14 , is located in this cover. On a conveyor fan 15 , several conveyor stations, not shown here, can be connected via further valves 14 'and 14 ''. Below the conveyor is a machine hopper 15 , which is equipped with a further filling detector 16 and is built directly onto the processing machine 17 . A filter 19 is installed in the clean air line 18 for separating very fine particles. Another filter 20 is located on the hopper of the processing machine, so that atmospheric air can flow into the funnel to equalize the pressure. The conveyor system is activated by a control, in such a way that when the refill detector 16 responds, the delivery valve 14 is opened and the delivery fan 15 starts up. This creates an air flow which, on the one hand, causes material to be sucked into the conveying device from the storage container, on the other hand, the ball 6 is raised by the onset of flow (position shown in broken lines) and is pressed tightly against the outlet 4 . This is the prerequisite that the conveyor is filled until the level indicator 8 responds. Then the flap 14 is closed, the fan 15 is switched off or, if necessary, the next conveyor to be filled is connected via 14 'or 14 ''. By closing the flap 14 , atmospheric pressure occurs in the conveying device through inflowing air via the conveying line, so that the dead weight of the conveyed-in granules and the dead weight of the ball itself, the opening 4 and the material can escape into the extruder hopper.

This process is repeated continuously, so that the Processing machine sufficiently supplied with material at all times is.

Claims (6)

1. Closure for the outlet of a conveyor for bulk goods working in negative pressure, the outlet having a circular cross section, characterized in that a freely movable body is provided below the outlet, which rests on a support in the open position and in the conveyed state due to the negative pressure closes the outlet opening. 2. Closure according to claim 1, characterized in that the free moving body is a ball. 3. Closure according to claim 2, characterized in that the Ball smoothly between the closed and Open position moves. 4. Closure according to one of the preceding claims, characterized characterized in that the free moving body on the Support device itself centered and thus an annular Exhaust cross section is formed by the struts of the Support device is interrupted. 5. Closure according to one of the preceding claims, characterized characterized in that the outlet is funnel-shaped or is designed point symmetrical. 6. Closure according to one of the preceding claims, characterized characterized in that the closure body made of the material of the bulk goods to be conveyed.